“Hey, guys, we’re going to Mars!” Maven’s principal scientist, Bruce Jakosky of the University of Colorado at Boulder, told reporters after liftoff.

Jakosky and others want to know why Mars went from being warm and wet during its first billion years to cold and dry today. The early Martian atmosphere was thick enough to hold water and possibly support microbial life. But much of that atmosphere may have been lost to space, eroded by the sun.

Maven set off through a cloudy afternoon sky in its bid to provide answers. An unmanned Atlas V rocket put the spacecraft on the proper course for Mars, and launch controllers applauded and shook hands over the success.

“What a Monday at the office,” NASA project manager David Mitchell said. “Maybe I’m not showing it, but I’m euphoric.”

Ten years in the making, Maven had Nov. 18, 2013, as its original launch date, “and we hit it,” Mitchell said.

“I just want to say, â€˜Safe travels, Maven. We’re with you all the way.'”

Jakosky, Maven’s mastermind, said he was anxious and even shaking as the final seconds of the countdown ticked away. An estimated 10,000 NASA guests gathered for the liftoff — the most exciting one of the year from Cape Canaveral — including a couple thousand representing the University of Colorado.

Surviving liftoff was the first big hurdle, Jakosky said. The next huge milestone will be Maven’s insertion into orbit around Mars on Sept. 22, 2014.

To help solve Mars’ environmental puzzle, Maven will spend an entire Earth year measuring atmospheric gases.

This is NASA’s 21st mission to Mars since the 1960s. But it’s the first one devoted to studying the Martian upper atmosphere.

The mission costs $671 million.

Maven — short for Mars Atmosphere and Volatile Evolution, with a capital “N” in EvolutioN — bears eight science instruments. The spacecraft, at 5,410 pounds, weighs as much as an SUV. From solar wingtip to wingtip, it stretches 37.5 feet, about the length of a school bus.

A question underlying all of NASA’s Mars missions to date is whether life could have started on what now seems to be a barren world.

“We don’t have that answer yet, and that’s all part of our quest for trying to answer, â€˜Are we alone in the universe?’ in a much broader sense,” said John Grunsfeld, NASA’s science mission director.

Unlike the 2011-launched Curiosity rover, Maven will conduct its experiments from orbit around Mars.

Maven will dip as low as 78 miles above the Martian surface, sampling the atmosphere. The lopsided orbit will stretch as high as 3,864 miles.

Curiosity’s odometer reads 2.6 miles after more than a year of roving the red planet. An astronaut could accomplish that distance in about a day on the Martian surface, Grunsfeld noted.

Grunsfeld, a former astronaut, said considerable technology is needed, however, before humans can fly to Mars in the 2030s, NASA’s ultimate objective.

Mars remains an intimidating target even for robotic craft, more than 50 years after the world’s first shot at the red planet.

Fourteen of NASA’s previous 20 missions to Mars have succeeded, beginning with the 1964-launched Mariner 4, a Martian flyby. The U.S. hasn’t logged a Mars failure, in fact, since the late 1990s.

That’s a U.S. success rate of 70 percent. No other country comes close. Russia has a poor track record involving Mars, despite repeated attempts dating to 1960.

India became the newest entry to the Martian market two weeks ago with its first launch to Mars.

If all goes well, Maven will cruise past India’s Mars voyager, called Mangalyaan, or “Mars craft” in Hindi. Maven should beat Mangalyaan to Mars by two days next September, Mitchell said.

“It’s kind of a neat race, and we wish them all the best,” Mitchell said.

Earth and Mars line up properly for a Mars flight every two years, occasionally resulting in just this sort of traffic jam. The two planets are constantly on the move, thus the 440 million-mile-plus chase by Maven to Mars over the next 10 months.

Maven’s science instruments will be turned on in the next few weeks. During the second week of December, the University of Colorado’s ultraviolet spectrograph will try to observe Comet ISON, now visible and brightening in the night sky as it speeds toward the sun.

ISON will zip within 730,000 miles of the sun on Thanksgiving Day. Astronomers are uncertain whether the comet will survive that blisteringly close encounter.

Comets have many of the same gases as the Martian atmosphere, observed the chief scientist for Maven’s ultraviolet instrument, Nick Schneider.

“What an ideal opportunity for us to try out our instrument and do some good science along the way,” Schneider said.

Portland Press Herald e-edition

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